PIC16LC63A-04 Datasheet, PDF(60/184 Page) Microchip Technology – 8-Bit CMOS Microcontrollers with A/D Converter

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

PIC16LC63A-04 Datasheet, PDF (60/184 Pages) Microchip Technology – 8-Bit CMOS Microcontrollers with A/D Converter

◁

PIC16C63A/65B/73B/74B

10.3 SSP I2C Operation

The SSP module in I2C mode fully implements all slave

functions, except general call support, and provides

interrupts on START and STOP bits in hardware to

facilitate firmware implementation of the master func-

tions. The SSP module implements the standard mode

specifications as well as 7-bit and 10-bit addressing.

Two pins are used for data transfer, the RC3/SCK/SCL

pin, which is the clock (SCL), and the RC4/SDI/SDA

pin, which is the data (SDA). The user must configure

these pins as inputs or outputs through the

TRISC<4:3> bits. External pull-up resistors for the SCL

and SDA pins must be provided in the application cir-

cuit for proper operation of the I2C module.

The SSP module functions are enabled by setting SSP

enable bit SSPEN (SSPCON<5>).

FIGURE 10-5:

SSP BLOCK DIAGRAM

(I2C MODE)

Read

Internal

Data Bus

Write

RC3/SCK/SCL

RC4/SDI/

SDA

SSPBUF reg

Shift

Clock

SSPSR reg

MSb

LSb

Match Detect

Addr Match

SSPADD reg

START and

STOP bit Detect

Set, Reset

S, P bits

(SSPSTAT reg)

The SSP module has five registers for I2C operation.

These are the:

â¢ SSP Control Register (SSPCON)

â¢ SSP Status Register (SSPSTAT)

â¢ Serial Receive/Transmit Buffer (SSPBUF)

â¢ SSP Shift Register (SSPSR) - not directly accessible

â¢ SSP Address Register (SSPADD)

The SSPCON register allows control of the I2C opera-

tion. Four mode selection bits (SSPCON<3:0>) allow

one of the following I2C modes to be selected:

â¢ I2C Slave mode (7-bit address)

â¢ I2C Slave mode (10-bit address)

â¢ I2C Slave mode (7-bit address), with START and

STOP bit interrupts enabled to support firmware

Master mode

â¢ I2C Slave mode (10-bit address), with START and

STOP bit interrupts enabled to support firmware

Master mode

â¢ I2C START and STOP bit interrupts enabled to

support firmware Master mode, Slave is idle

Selection of any I2C mode with the SSPEN bit set,

forces the SCL and SDA pins to be open drain, pro-

vided these pins are programmed to inputs by setting

the appropriate TRISC bits.

Additional information on SSP I2C operation can be

found in the PICmicroâ¢ Mid-Range MCU Family Ref-

erence Manual (DS33023).

10.3.1 SLAVE MODE

In Slave mode, the SCL and SDA pins must be config-

ured as inputs (TRISC<4:3> set). The SSP module will

override the input state with the output data when

required (slave-transmitter).

When an address is matched or the data transfer after

an address match is received, the hardware automati-

cally generates the acknowledge (ACK) pulse, and

then loads the SSPBUF register with the received

value currently in the SSPSR register.

There are certain conditions that will cause the SSP

module not to give this ACK pulse. They include (either

or both):

a) The buffer full bit BF (SSPSTAT<0>) was set

before the transfer was received.

b) The overflow bit SSPOV (SSPCON<6>) was set

before the transfer was received.

In this case, the SSPSR register value is not loaded

into the SSPBUF, but bit SSPIF (PIR1<3>) is set.

Table 10-2 shows what happens when a data transfer

byte is received, given the status of bits BF and

SSPOV. The shaded cells show the condition where

user software did not properly clear the overflow condi-

tion. Flag bit BF is cleared by reading the SSPBUF

The SCL clock input must have minimum high and low

times for proper operation. The high and low times of

the I2C specification, as well as the requirement of the

SSP module, is shown in timing parameter #100 and

parameter #101.

DS30605C-page 60

▷